Finite element analysis of various implant configurations using zygomatic and pterygoid implants in the rehabilitation of the atrophic maxilla

Year 2025, Volume: 6 Issue: 4, 409 - 415, 31.08.2025

Oğuzhan Tapçı Ferhat Ayrancı , Eren Toğaç

https://doi.org/10.47582/jompac.1752406

Abstract

Aims: This study aimed to evaluate the biomechanical behavior of different implant-supported rehabilitation concepts involving zygomatic and pterygoid implants in the atrophic maxilla using finite element stress analysis (FESA).
Methods: A 3D finite element model of an atrophic maxilla was generated from CT data and restored using three different implant configurations, including zygomatic and pterygoid implants. Linear static FESA was performed under vertical loading (150 N) in both anterior (tooth 11) and posterior (tooth 16) regions. Von Mises and principal stress values were calculated for implants, abutments, prosthetic substructure, and cortical and cancellous bone.
Results: Under anterior loading, the highest von Mises stress on implants and abutments was observed in model III (56.07 MPa), while model II (27.937 MPa) showed the lowest. Under posterior loading, the highest stress on implants was recorded in model II (80.475 MPa), and the lowest in model III (31.123 MPa). Stress distribution in bone tissues varied across models, with model I generally showing the highest principal stress under posterior loading, and model III the lowest. The results highlighted that different implant configurations lead to significant variations in stress patterns.
Conclusion: Among the evaluated configurations, model II provided superior biomechanical performance, suggesting that the implant combination in this model may offer a more favorable stress distribution in the prosthetic rehabilitation of the atrophic maxilla. These findings underscore the importance of implant design and placement strategy, which can be optimized using FESA prior to clinical application.

Keywords

Atrophic maxilla , zygomatic implants , pterygoid implants , finite element analysis , biomechanical stress , implant supported prosthesis

Supporting Institution

Ordu University Scientific Research Projects Coordination Unit

Project Number

project number B-2430.

Atrofik maksillanın rehabilitasyonunda zigomatik ve pterigoid implantların kullanıldığı farklı implant konfigürasyonlarının sonlu elemanlar analizi ile incelenmesi

Abstract

Amaç:
Bu çalışmanın amacı, atrofik maksillanın rehabilitasyonunda zigomatik ve pterigoid implantları içeren farklı implant destekli protez konfigürasyonlarının biyomekanik davranışını sonlu elemanlar analizi (SEA) kullanarak değerlendirmektir.
Gereç ve Yöntem:
Atrofik maksillanın üç boyutlu sonlu eleman modeli, bilgisayarlı tomografi (BT) verilerinden oluşturulmuş ve zigomatik ve pterigoid implantları içeren üç farklı implant konfigürasyonu ile restore edilmiştir. Anterior (diş 11) ve posterior (diş 16) bölgelerde 150 N’lik vertikal yükleme altında lineer statik SEA gerçekleştirilmiştir. İmplantlar, abutmentlar, protez altyapısı, kortikal ve süngerimsi kemik için Von Mises ve asal gerilme (principal stress) değerleri hesaplanmıştır.
Bulgular:
Anterior yükleme altında, implantlar ve abutmentlar üzerindeki en yüksek Von Mises gerilmesi Model III’te, en düşük gerilme ise Model II’de gözlenmiştir. Posterior yükleme altında ise en yüksek implant gerilmesi Model II’de, en düşük gerilme Model III’te kaydedilmiştir. Kemik dokularındaki gerilme dağılımı modellere göre değişkenlik göstermiştir; posterior yükleme altında en yüksek asal gerilme genellikle Model I'de, en düşük ise Model III’te saptanmıştır. Bu sonuçlar, farklı implant konfigürasyonlarının gerilme dağılımı üzerinde önemli farklılıklara yol açtığını ortaya koymuştur.
Sonuç:
Değerlendirilen konfigürasyonlar arasında, Model II en iyi biyomekanik performansı göstermiştir. Bu modeldeki implant kombinasyonu, atrofik maksillanın protetik rehabilitasyonunda daha avantajlı bir gerilme dağılımı sağlayabilir. Elde edilen bulgular, klinik uygulama öncesinde implant tasarımı ve yerleşim stratejisinin SEGA ile optimize edilmesinin önemini vurgulamaktadır.

Keywords

Atrofik maksilla , zigomatik implant , pterigoid implant , sonlu elemanlar analizi , biyomekanik gerilme , implant destekli protez.

Project Number

project number B-2430.

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